In order to enable an iCal export link, your account needs to have a key created. This key enables other applications to access data from within Indico even when you are neither using nor logged into the Indico system yourself with the link provided. Once created, you can manage your key at any time by going to 'My Profile' and looking under the tab entitled 'HTTP API'. Further information about HTTP API keys can be found in the Indico documentation.

I have read and understood the above.

In conjunction with a having a key associated with your account, to have the possibility of exporting private event information necessitates the creation of a persistent key. This new key is also associated with your account and whilst it is active the data which can be obtained through using this key can be obtained by anyone in possession of the link provided. Due to this reason, it is extremely important that you keep links generated with this key private and for your use only. If you think someone else may have acquired access to a link using this key in the future, you must immediately remove it from 'My Profile' under the 'HTTP API' tab and generate a new key before regenerating iCalendar links.

Both experiment and theory on ultrafast dynamics in strongly correlated systems have made significant recent advances. New and upcoming large-scale experimental facilities such as FLASH, LCLS, EU-XFEL, SCSS and SwissFEL are expected to carry this progress forward dramatically as new ways of investigating ultrafast phenomena become possible.

The goal of this workshop is to bring into contact different groups working on problems related to the dynamics of correlated electron systems, with a particular emphasis on promoting closer interactions and cooperation between experiment and theory in this subject area. The workshop will hopefully lead to an exchange of pertinent information about recent developments in both experimental techniques and simulations of the dynamics in correlated electron systems and contribute to an improved understanding of correlated materials. Subjects covered include photodoping, nonequilibrium phase transitions, the dynamics of charge-density-wave and magnetically or orbitally ordered systems, superconductors, and nonequilibrium properties of cold atom systems. The planned workshop is also an appropriate forum for a discussion of techniques relevant to these studies, both experimental (e.g. ultrafast optical spectroscopies, X-ray probes, electron diffraction, ARPES, THz spectroscopy) and theoretical (e.g. nonequilibrium DMFT, tDMRG).

The format of the workshop includes talks by invited speakers, oral contributions and poster presentations.